Organometallic Reagents
Organometallic reagents are organic compounds containing metal elements and are widely used in organic synthesis. They are usually composed of metals and organic ligands (such as alkyl, aryl, halogen, etc.). Their main function is to react with substrates through metal centers to achieve the transformation of various organic reactions. Common organometallic reagents include Grignard reagents (such as RMgX), organolithium reagents (such as RLi), organocopper reagents (such as R2CuLi), etc.
Organometallic Reagents
Organometallic reagents are organic compounds containing metal elements and are widely used in organic synthesis. They are usually composed of metals and organic ligands (such as alkyl, aryl, halogen, etc.). Their main function is to react with substrates through metal centers to achieve the transformation of various organic reactions. Common organometallic reagents include Grignard reagents (such as RMgX), organolithium reagents (such as RLi), organocopper reagents (such as R2CuLi), etc.
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Disilanes
Disilanes are compounds formed by two silicon atoms connected to hydrogen atoms, alkyl groups or other organic groups. Disilanes play an important role in organosilicon chemistry, material science, semiconductor industry and other fields due to their chemical reactivity and diverse structural characteristics. They are not only key intermediates in synthesis and processing, but also play an important role in modification, reduction and other aspects.
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Organosilicon Compounds (Other)
Organosilicon compounds are chemical compounds containing silicon (Si) atoms, which have unique chemical properties and a wide range of applications. Since the chemical properties of silicon are similar to those of carbon, these compounds play an important role in the fields of industry, electronics, materials science, etc. Organosilicon compounds have a wide range of applications in various fields due to their unique structure and properties.
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Silanols
Silanols are organosilicon compounds containing silicon-hydroxyl (Si-OH) functional groups. Silanols are a very important class of organosilicon compounds, which are widely used in many fields due to their unique chemical properties and reactivity. They not only play an important role in surface modification, adhesives, coatings, waterproof materials, etc., but also show great potential in organic synthesis, catalysis, biomedicine, agriculture and other fields.
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Silazanes
Silazanes are compounds containing silicon-nitrogen bonds (Si-N) with a variety of useful chemical properties and are widely used in many fields. Silazanes are a class of materials with important chemical and physical properties, widely used in high-temperature ceramics, catalysts, electronic devices, coatings, gas separation and other fields. Their advantages in high temperature, corrosion resistance, oxidation resistance, and wear resistance make them play an important role in modern industry and science and technology.
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Silicates
Silicate is a compound containing silicon and oxygen, usually with silicon-oxygen tetrahedron (SiO₄) as the basic unit. Silicates are widely present in nature and are the most common mineral components in the earth's crust. In addition to being the main c
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Siloxanes
Siloxane is a class of chemical compounds composed of alternating silicon and oxygen, with a general chemical structure of -Si-O-Si-, in which silicon atoms and oxygen atoms are alternately connected. Siloxane is widely present in silicone chemistry, and common siloxanes include silicone oil, silicone, silane and silicone resin. Due to its unique physical and chemical properties, siloxane has been widely used in many industries. As an important class of chemical substances, siloxane has a wide range of applications, including lubrication, cosmetics, coatings, electronics, medical treatment and environmental protection. Its unique structure and properties make it play an indispensable role in modern industry, life and technology.
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Trialkoxysilanes
Trialkoxysilanes are a class of compounds containing a silicon atom and three alkyloxy (-OR) groups, usually with the chemical formula R₃Si—O, where R is an alkyl group (such as methyl, ethyl, propyl, etc.). These compounds have very important application
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Vinylsilanes
Vinyl silane is a type of organosilicon compound containing vinyl (—CH=CH₂) and siloxy group (—Si—O—), which is widely used in many fields such as surface treatment of materials, enhancing adhesion, improving performance, etc. Vinyl silane is widely used
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Allylsilanes
Allylsilane is a kind of organosilicon compound containing allyl group (—CH₂=CH—CH₂) and siloxy group (—Si—O—), which is widely used in organosilicon chemistry and materials science. Allylsilane is a multifunctional chemical additive, which is widely used
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Ethynylsilanes
Ethylene silane is a kind of organosilicon compound containing ethynyl group (—C≡CH) and siloxy group (—Si—O—). As an important organosilicon compound, ethynyl silane has a wide range of applications in cross-linking reaction, polymerization reaction, surface modification, optical materials and high-performance coatings. Through its unique ethynyl group and siloxy group, ethynyl silane can significantly improve the mechanical properties, thermal stability, electrical properties and chemical resistance of materials, so it has important application value in many industrial fields.
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Silyl Enol Ethers, Silyl Ketene Acetals
Silylene ethers and silylketoates play an important role in organic synthesis. As protecting groups, reactive intermediates and catalysts, they are widely used in the synthesis of complex molecules, improving reaction selectivity, controlling stereochemistry and cyclization reactions. By rationally selecting and using these silicon-based compounds, efficient and precise reaction pathways can be achieved in organic synthesis, promoting the development of chemical research and industrial applications.
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Clorosilanes
Chlorosilanes are very important chemical reagents in organosilicon chemistry, and their main functions are reflected in many fields such as silanization reaction, surface modification, polymer synthesis, catalytic reaction, etc. By controlling the reaction conditions, chlorosilanes can be used to synthesize a variety of organosilicon compounds, which are widely used in materials science, electronics industry, drug synthesis, coatings and other fields.
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Bromosilanes
Bromosilanes are organosilicon compounds containing silicon and bromine, and they are also widely used in organosilicon chemistry. Bromosilanes usually appear in liquid form and have chemical properties similar to chlorosilanes, but they differ from chlorosilanes in reactivity and reaction conditions.
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Hydrosilanes
Hydrosilane is an organosilicon compound containing a silicon-hydrogen bond (Si-H), which is widely used in organosilicon chemistry and other fields. The main feature of hydrosilane is that the silicon-hydrogen bond is very active and can react with many compounds, especially under catalytic conditions. As a compound with an active silicon-hydrogen bond, hydrosilane is widely used in organic synthesis, surface modification, material synthesis and other fields. Its main functions include: as a reducing agent for reduction reaction, as a silanizing agent for surface modification, participating in cross-linking reactions to enhance material properties, catalyzing certain chemical reactions, etc.
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Carboxylic Acid Silyl Esters, Sulfonic Acid Silyl Esters
Silane carboxylates and silane sulfonates are two common silicon-containing compounds that are widely used in organosilicon chemistry and materials science. They connect silane groups with carboxylic acid or sulfonic acid groups through silicon-oxygen bonds (Si-O) and have important chemical and physical properties. Silane carboxylates and silane sulfonates play important roles in surface modification, polymer synthesis, catalytic reactions, etc. They combine silane groups with functional acid groups (carboxylic acid or sulfonic acid) to form compounds with special properties, which are widely used in materials science, chemical engineering, electronics, coatings and other industries.
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Boronic Acids and Derivatives
Boric acid and its derivatives have extensive and important applications in many fields such as organic synthesis, drug design, sensor development, catalytic reactions, etc. Their unique chemical properties, such as their specific interactions with sugars, make them a hot topic in biomedicine, materials science, etc. In addition, the environmentally friendly properties of boric acid and its derivatives also provide potential for their application in environmental protection and pollution control.
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Borylation Reagents
Borylation reagents are a class of reagents used to introduce boron groups (–B) into molecules in organic synthesis. Borylation is a commonly used chemical reaction used to synthesize various compounds with boron groups (–B), which have a wide range of applications in materials science, medicinal chemistry, catalyst design, and other fields.
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Organoboron Compounds (Other)
Organoboron compounds play an important role in organic synthesis, medicinal chemistry, catalytic reactions and materials science. Their application in cross-coupling reactions provides a powerful tool for the synthesis of new organic molecules, while in drug design and materials science, the unique properties of organoboron compounds make them important molecular building blocks. With the deepening of scientific research, organoboron compounds will play an increasingly important role in more fields.